874:. From psychophysiological perspective, the human movement system is a highly intricate network of co-dependent sub-systems (e.g. respiratory, circulatory, nervous, skeletomuscular, perceptual) that are composed of a large number of interacting components (e.g. blood cells, oxygen molecules, muscle tissue, metabolic enzymes, connective tissue and bone). In dynamical systems theory, movement patterns emerge through generic processes of self-organization found in physical and biological systems. There is no research validation of any of the claims associated to the conceptual application of this framework.
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936:, has increasingly adopted the methods from (nonlinear) “Dynamic Systems Theory (DST)“. A variety of neurosymbolic cognitive neuroarchitectures in modern connectionism, considering their mathematical structural core, can be categorized as (nonlinear) dynamical systems. These attempts in neurocognition to merge connectionist cognitive neuroarchitectures with DST come from not only neuroinformatics and connectionism, but also recently from
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174:. Here, the focus is not on finding precise solutions to the equations defining the dynamical system (which is often hopeless), but rather to answer questions like "Will the system settle down to a steady state in the long term, and if so, what are the possible steady states?", or "Does the long-term behavior of the system depend on its initial condition?"
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is an approach to understanding the behaviour of systems over time. It deals with internal feedback loops and time delays that affect the behaviour and state of the entire system. What makes using system dynamics different from other approaches to studying systems is the language used to describe
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Schöner, G. (2009) Development as change of systems dynamics: stability, instability, and emergence. pp. 25-31. In: J.P. Spencer, M.S.C. Thomas, and J.L. McClelland. : Toward a
Unified Theory of Development: Connectionism and Dynamic Systems Theory ReConsidered. Oxford University Press,
747:(GDS) can be used to capture a wide range of processes taking place on graphs or networks. A major theme in the mathematical and computational analysis of graph dynamical systems is to relate their structural properties (e.g. the network connectivity) and the global dynamics that result.
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Schlesinger, M. (2009). The robot as a new frontier for connectionism and dynamic systems theory. pp. 182-199. In: J.P. Spencer, M.S.C. Thomas, and J.L. McClelland. : Toward a
Unified Theory of Development: Connectionism and Dynamic Systems Theory ReConsidered. Oxford University Press,
914:(the spontaneous creation of coherent forms) sets in as activity levels link to each other. Newly formed macroscopic and microscopic structures support each other, speeding up the process. These links form the structure of a new state of order in the mind through a process called
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as well as language acquisition. In her article she claimed that language should be viewed as a dynamic system which is dynamic, complex, nonlinear, chaotic, unpredictable, sensitive to initial conditions, open, self-organizing, feedback sensitive, and adaptive.
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Abrahamsen, A. and W. Bechtel (2006). Phenomena and mechanisms: putting the symbolic, connectionist, and dynamical systems debate in broader perspective. pp. 159-185. In: R. Stainton : Contemporary
Debates in Cognitive Science. Basil Blackwell,
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van Gelder, T. and R.F. Port (1995). It’s about time: an overview of the dynamical approach to cognition. pp. 1-43. In: R.F. Port and T. van Gelder : Mind as Motion. Explorations in the
Dynamics of Cognition. A Bradford Book. MIT Press,
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Nadeau, S.E. (2014). Attractor basins: a neural basis for the conformation of knowledge. pp. 305-333. In: A. Chatterjee : The Roots of
Cognitive Neuroscience. Behavioral Neurology and Neuropsychology. Oxford University Press,
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Maurer, H. (2021). Cognitive science: Integrative synchronization mechanisms in cognitive neuroarchitectures of the modern connectionism. CRC Press, Boca Raton/FL, chap. 1.4, 2., 3.26, 11.2.1, ISBN 978-1-351-04352-6.
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should be (or is) the description (via differential equations) of the cognitions and behaviors of an agent under certain environmental and internal pressures. The language of chaos theory is also frequently adopted.
221:. There, as in other natural sciences and engineering disciplines, the evolution rule of dynamical systems is given implicitly by a relation that gives the state of the system only a short time into the future.
870:, dynamical systems theory has emerged in the movement sciences as a viable framework for modeling athletic performance and efficiency. It comes as no surprise, since dynamical systems theory has its roots in
410:, is nonlinear according to a strict definition, but such systems are usually studied alongside linear systems, because they can be transformed to a linear system as long as a particular solution is known.
898:. It also believed that differential equations are the most appropriate tool for modeling human behavior. These equations are interpreted to represent an agent's cognitive trajectory through
177:
An important goal is to describe the fixed points, or steady states of a given dynamical system; these are values of the variable that do not change over time. Some of these fixed points are
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Schöner, G. (2008). Dynamical systems approaches to cognition. pp. 101-126. In: R. Sun : The
Cambridge Handbook of Computational Psychology. CambridgeUniversity Press, Cambridge.
490:, meaning that their future dynamics are fully defined by their initial conditions, with no random elements involved. This behavior is known as deterministic chaos, or simply
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Munro, P.W. and J.A. Anderson. (1988). Tools for connectionist modeling: the dynamical systems methodology. Behavior
Research Methods, Instruments, and Computers 20: 276-281.
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482:). As a result of this sensitivity, which manifests itself as an exponential growth of perturbations in the initial conditions, the behavior of chaotic systems appears
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478:– that is, systems whose state evolves with time – that may exhibit dynamics that are highly sensitive to initial conditions (popularly referred to as the
80:. When the time variable runs over a set that is discrete over some intervals and continuous over other intervals or is any arbitrary time-set such as a
910:
In it, the learner's mind reaches a state of disequilibrium where old patterns have broken down. This is the phase transition of cognitive development.
402:. Less technically, a nonlinear system is any problem where the variable(s) to solve for cannot be written as a linear sum of independent components. A
309:. Small changes in the state of the system correspond to small changes in the numbers. The numbers are also the coordinates of a geometrical space—a
918:(the repeated building up and collapsing of complex performance.) This new, novel state is progressive, discrete, idiosyncratic and unpredictable.
228:, solving a dynamical system required sophisticated mathematical techniques and could only be accomplished for a small class of dynamical systems.
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This theory deals with the long-term qualitative behavior of dynamical systems, and studies the nature of, and when possible the solutions of, the
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Maurer, H. (2016). „Integrative synchronization mechanisms in connectionist cognitive
Neuroarchitectures“. Computational Cognitive Science. 2: 3.
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is a branch of the theory of dynamical systems in which qualitative, asymptotic properties of dynamical systems are studied from the viewpoint of
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Leitgeb, H. (2005). Interpreted dynamical systems and qualitative laws: from neural network to evolutionary systems. Synthese 146: 189-202.
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R.F. Port and T. van Gelder (1995). Mind as Motion. Explorations in the
Dynamics of Cognition. A Bradford Book. MIT Press, Cambridge/MA.
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where solutions are restricted to a constraint set. The discipline shares connections to and applications with both the static world of
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894:. It is the belief that cognitive development is best represented by physical theories rather than theories based on syntax and
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551:. From such perspective, in different research contexts complex systems are defined on the base of their different attributes.
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Dynamic systems theory has recently been used to explain a long-unanswered problem in child development referred to as the
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is therefore often used as a broad term encompassing a research approach to problems in many diverse disciplines including
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that describe the swinging of a clock pendulum, the flow of water in a pipe, and the number of fish each spring in a lake.
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725:, implying a function whose argument is a function. Its use in general has been attributed to mathematician and physicist
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Grebogi, C.; Ott, E.; Yorke, J. (1987). "Chaos, Strange
Attractors, and Fractal Basin Boundaries in Nonlinear Dynamics".
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of abstract symbols, each of which corresponds to a state of the system, with the dynamics (evolution) given by the
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van Gelder, T. (1998b). The dynamical hypothesis in cognitive science. Behavioral and Brain Sciences 21: 615-628.
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is an interesting statement about the number of periodic points of a one-dimensional discrete dynamical system.
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203:. The branch of dynamical systems that deals with the clean definition and investigation of chaos is called
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1267:"DYNAMICAL SYSTEMS THEORY: a Relevant Framework for Performance-Oriented Sports Biomechanics Research"
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The study of complex systems is bringing new vitality to many areas of science where a more typical
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Nonlinear Dynamics and Chaos: With Applications to Physics, Biology, Chemistry, and Engineering
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831:. These elements help describe how even seemingly simple systems display baffling
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that describes what future states follow from the current state. The rule may be
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System theory: a unified state-space approach to continuous and discrete systems
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is a field that emerged in the 1990s that amalgamates two areas of mathematics,
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Area of mathematics used to describe the behavior of complex dynamical systems
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and related problems. Its initial development was motivated by problems of
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Some excellent presentations of mathematical dynamic system theory include
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543:. The key problems of such systems are difficulties with their formal
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system, which is linear apart from the presence of a function of the
119:, and elsewhere. Much of modern research is focused on the study of
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88:. Some situations may also be modeled by mixed operators, such as
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Introduction to dynamic systems: theory, models, and applications
153:
dynamical system. Studying the Lorenz system helped give rise to
52:. When differential equations are employed, the theory is called
1561:
A Visual Introduction to Dynamical Systems Theory for Psychology
275:
1804:
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453:-adic, and/or algebraic points under repeated application of a
74:. When difference equations are employed, the theory is called
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acting upon them. It has its historical roots in the study of
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often exhibit seemingly random behavior that has been called
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is a scientific field that studies the common properties of
435:. Classically, discrete dynamics refers to the study of the
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should be viewed as a developmental process which includes
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who published an article in 1997 in which she claimed that
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217:
The concept of dynamical systems theory has its origins in
1525:"Chaos/Complexity Science and Second Language Acquisition"
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Dynamical system theory has been applied in the field of
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and its founding is largely attributed to mathematician
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Paul S Glazier, Keith Davids, Roger M Bartlett (2003).
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are postulated directly and are not constrained to be
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is the practice of modelling a topological or smooth
633:, in part it deals with influencing the behavior of
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the neo-Piagetian theories of cognitive development
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948:” in connection with the mathematical method of “
170:deal with the long-term qualitative behavior of
1248:MIT System Dynamics in Education Project (SDEP)
962:Dynamic approach to second language development
780:. A projected dynamical system is given by the
1816:
1680:Michel, Anthony; Kaining Wang; Bo Hu (2001).
1337:Smith, Linda B.; Esther Thelen (2003-07-30).
1009:Biological applications of bifurcation theory
486:. This happens even though these systems are
8:
801:by a discrete space consisting of infinite
240:
1823:
1809:
1801:
1269:. in: Sportscience 7. Accessed 2008-05-08.
398:—i.e., a system that does not satisfy the
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1512:https://doi.org/10.1186/s40469-016-0010-8
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940:(“Dynamic Field Theory (DFT)”) and from “
902:. In other words, dynamicists argue that
103:or otherwise physical in nature, such as
1785:Encyclopedia of Cognitive Science entry.
608:and inquiries into the nature of living
278:dependence of a point's position in its
274:for any fixed "rule" that describes the
244:
232:
136:mathematical theory of dynamical systems
126:This field of study is also called just
1683:Qualitative Theory of Dynamical Systems
1155:
932:, oriented towards a systemtheoretical
928:Further, since the middle of the 1990s
784:to the projected differential equation.
356:exemplified by the work of philosopher
346:dynamic hypothesis in cognitive science
764:theory investigating the behaviour of
1500:https://doi.org/10.1201/9781351043526
132:mathematical dynamical systems theory
7:
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1231:, Macmillan. Retrieved 8 May 2008.
776:problems and the dynamical world of
99:of systems that are often primarily
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1064:Combinatorics and dynamical systems
952:(EC)”. For an overview see Maurer.
699:, in particular transformations of
111:, as well as systems that arise in
625:is an interdisciplinary branch of
474:describes the behavior of certain
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1339:"Development as a dynamic system"
1229:Encyclopedia of cognitive science
90:differential-difference equations
37:used to describe the behavior of
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1593:(2nd ed.). Academic Press.
1590:Mathematics for Dynamic Modeling
184:Similarly, one is interested in
86:dynamic equations on time scales
2281:Computational complexity theory
1558:; Shaw, Christopher D. (1990).
1044:List of types of systems theory
999:List of dynamical system topics
778:ordinary differential equations
1789:Definition of dynamical system
1622:Dynamical systems in the plane
956:In second language development
687:, concerned with the study of
293:determined by a collection of
1:
2435:Computational fields of study
1368:10.1016/S1364-6613(03)00156-6
1279:Lewis, Mark D. (2000-02-25).
1088:People in systems and control
1014:Dynamical system (definition)
707:, as well as in the study of
364:are more suited to modelling
317:of the dynamical system is a
262:Dynamical system (definition)
166:Dynamical systems theory and
62:, a generalization where the
1587:Beltrami, Edward J. (1998).
1346:Trends in Cognitive Sciences
1223:Jerome R. Busemeyer (2008),
1187:10.1126/science.238.4827.632
55:continuous dynamical systems
1523:Larsen-Freeman, D. (1997).
1019:Embodied Embedded Cognition
976:second language acquisition
968:second language acquisition
758:Projected dynamical systems
752:Projected dynamical systems
560:strategy has fallen short.
197:nonlinear dynamical systems
149:, which is an example of a
2451:
2331:Films about mathematicians
1797:Dynamical Systems Magazine
959:
379:
270:concept is a mathematical
259:
145:A chaotic solution of the
77:discrete dynamical systems
18:Mathematical system theory
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1900:Philosophy of mathematics
1840:
715:. This usage of the word
604:, earthquake prediction,
297:, or more generally by a
289:A dynamical system has a
241:Padulo & Arbib (1974)
2336:Recreational mathematics
1686:. Taylor & Francis.
1059:Recurrent neural network
950:evolutionary computation
938:developmental psychology
598:evolutionary computation
537:study of complex systems
394:is a system that is not
282:. Examples include the
68:Euler–Lagrange equations
31:Dynamical systems theory
2221:Mathematical statistics
2211:Mathematical psychology
2181:Engineering mathematics
2115:Algebraic number theory
1554:Abraham, Frederick D.;
1537:10.1093/applin/18.2.141
1310:10.1111/1467-8624.00116
745:graph dynamical systems
738:Graph dynamical systems
400:superposition principle
352:, is a new approach in
226:fast computing machines
44:, usually by employing
2430:Complex systems theory
2367:Mathematics portal
2216:Mathematical sociology
2196:Mathematical economics
2191:Mathematical chemistry
2120:Analytic number theory
2001:Differential equations
1235:June 13, 2008, at the
946:developmental robotics
723:calculus of variations
683:, and specifically of
541:sciences of complexity
529:complex systems theory
368:than more traditional
362:differential equations
158:
72:least action principle
46:differential equations
2346:Mathematics education
2276:Theory of computation
1996:Hypercomplex analysis
942:evolutionary robotics
888:cognitive development
408:independent variables
224:Before the advent of
190:Sharkovskii's theorem
144:
123:and bizarre systems.
107:and the behaviour of
2326:Informal mathematics
2206:Mathematical physics
2201:Mathematical finance
2186:Mathematical biology
2125:Diophantine geometry
1649:Luenberger, David G.
1531:. pp. 141–165.
972:Diane Larsen-Freeman
878:In cognitive science
872:Analytical mechanics
846:Topological dynamics
840:Topological dynamics
527:. It is also called
439:of self-maps of the
50:difference equations
2341:Mathematics and art
2251:Operations research
2006:Functional analysis
1743:Strogatz, Steven H.
1529:Applied Linguistics
1179:1987Sci...238..632G
868:sports biomechanics
677:Functional analysis
671:Functional analysis
664:statistical physics
425:Arithmetic dynamics
419:Arithmetic dynamics
284:mathematical models
219:Newtonian mechanics
109:electronic circuits
97:equations of motion
64:equations of motion
60:classical mechanics
2286:Numerical analysis
1895:Mathematical logic
1890:Information theory
1753:. Addison Wesley.
1625:. Academic Press.
1253:2008-05-09 at the
1143:Elon Lindenstrauss
1133:Hillel Furstenberg
1103:Nikolay Bogolyubov
1081:Related scientists
1034:Gingerbreadman map
980:language attrition
713:integral equations
533:complexity science
342:dynamic hypothesis
340:, also termed the
305:in an appropriate
159:
2425:Dynamical systems
2412:
2411:
2011:Harmonic analysis
1760:978-0-7382-0453-6
1711:Arbib, Michael A.
1693:978-0-8247-0526-8
1664:978-0-471-02594-8
1600:978-0-12-085566-7
1571:978-0-942344-09-7
1288:Child Development
1225:"Dynamic Systems"
1173:(4827): 632–638.
1108:Andrey Kolmogorov
1024:Fibonacci numbers
970:is attributed to
930:cognitive science
912:Self-organization
795:Symbolic dynamics
789:Symbolic dynamics
766:dynamical systems
721:goes back to the
705:Fourier transform
697:functional spaces
679:is the branch of
660:invariant measure
656:dynamical systems
635:dynamical systems
606:molecular biology
476:dynamical systems
459:rational function
429:dynamical systems
360:. It argues that
354:cognitive science
350:dynamic cognition
256:Dynamical systems
237:Luenberger (1979)
172:dynamical systems
128:dynamical systems
42:dynamical systems
16:(Redirected from
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2296:Computer algebra
2271:Computer science
1991:Complex analysis
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1138:Grigory Margulis
992:Related subjects
890:, especially in
850:general topology
829:stocks and flows
799:dynamical system
586:computer science
480:butterfly effect
452:
392:nonlinear system
382:Nonlinear system
376:Nonlinear system
268:dynamical system
105:planetary orbits
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1885:Category theory
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1783:Dynamic Systems
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1953:Multilinear
1933:Commutative
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1877:Foundations
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1004:Baker's map
900:state space
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774:equilibrium
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627:engineering
612:themselves.
574:meteorology
511:considered
388:mathematics
307:state space
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35:mathematics
2419:Categories
2231:Statistics
2110:Arithmetic
2072:Arithmetic
1938:Elementary
1905:Set theory
1389:2008-04-04
1323:2008-04-04
1039:Halo orbit
916:scalloping
904:psychology
718:functional
590:psychology
549:simulation
455:polynomial
338:Dynamicism
333:Dynamicism
327:stochastic
319:fixed rule
179:attractive
151:non-linear
101:mechanical
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2158:Geometric
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366:cognition
117:economics
2379:Category
2135:Topology
2082:Discrete
2067:Analytic
2054:Geometry
2026:Discrete
1981:Calculus
1973:Analysis
1928:Abstract
1867:Glossary
1850:Timeline
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251:Concepts
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1207:S2CID
1191:JSTOR
1150:Notes
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